Voting machine

ABSTRACT

Apparatus for selectively producing electrical pulses representative of a particular selection made by the operator of the apparatus. The apparatus is disclosed in the form of a voting machine built up of modular components which fit together to form any of a plurality of different voting arrangements. The voting machine is substantially tamper-proof and has the following basic components: an input module, a frame assembly, a first control module, a first vote module, a second control module, a second vote module, a terminal module, a write-in module, a slave input module, and a third control module. The modules may be placed together in selected fashion to define a voting machine for voting in any type of political race and which will prevent overvoting. The difference modules fit together in such manner that they cannot be separated without a key to unlock the same, thereby reducing the possibility of tampering with the election results. Moreover, each module is constructed in such manner that the module may be checked prior to assembly of the voting machine to insure proper functioning of the module once it is assembled.

United States Patent [191 Martin et a1.

[11] 3,787,662 [4 Jan. 22, 1974 VOTING MACHINE [75] Inventors: Roy A. Martin; Clarence E. Pittman,

both of Atlanta, Ga.

[73] Assigneer Lectra Data, Inc., Atlanta, Ga.

[22] Filed: Apr. 28, 1972 [21] Appl. No.2 248,673

Related U.S. Application Data [62] Division of Ser. No. 755,688, Aug. 27, 1968,

abandoned.

[52] U.S. Cl 235/54 F, 235/51 [51] Int. Cl G07c 13/00 [58] Field of Search 235/54 F, 54 R, 50 R, 50 A, 235/50 B, 51

[56] References Cited UNITED STATES PATENTS 3,024,974 3/1962 Hocker 235/51 3,162,362 12/1964 .lazbutis 235/54 F Primary ExaminerStephen J. Tomsky Attorney, Agent, or Firm-George M. Hopkins [57] ABSTRACT Apparatus for selectively producing electrical pulses representative of a particular selection made by the operator of the apparatus. The apparatus is disclosed in the form of a voting machine built up of modular components which fit together to form any of a plurality of different voting arrangements. The voting machine is substantially tamper-proof and has the following basic components: an input module, a frame assembly, a first control module, a first vote module, a second control module, a second vote module, a terminal module, a write-in module, a slave input module, and a third control module. The modules may be placed together in selected fashion to define a voting machine for voting in any type of political race and which will prevent overvoting. The difference modules fit together in such manner that they cannot be separated without a key to unlock the same, thereby reducing the possibility of tampering with the election results. Moreover, each module is constructed in such manner that the module may be checked prior to assembly of the voting machine to insure proper functioning of the module once it is assembled.

15 Claims, 25 Drawing Figures PAIENIEB 3. 787. 662

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VOTING MACHINE This is a division, of application Ser. No. 755,688, filed on Aug. 27, 1968, now abandoned.

BACKGROUND OF THE INVENTION 1. Field of the Invention This invention relates generally to apparatus for producing electrical pulses representative of a particular selection made on the apparatus and more particularly to a built-up type voting machine having modular components which fit together to define the complete machine.

2. Discussion of the Prior Art There are basically two types of voting machines on the market today. One of these types is the mechanical voting machine such as that manufactured by the Automatic Voting Machine Company of Jamestown, New York and another type is the vote recorder using a computer input card as that manufactured by the l.B.M. Corporation of Armonk, New York..

One of the major problems with the mechanical type voting machine is its very high initial cost. Also, the mechanical type voting machine is extremely heavy and requires extensive preventive maintenance to insure that the voting machine operates properly. Moreover, the mechanical type voting machine requires storage in a controlled environment to prevent corrosion of the voting machines during storage. The construction of the mechanical type voting machine allows tampering to change the results of the election. Moreover, set-up for these mechines is very time-consuming and requires a skilled technician. I

While the voterecorder type voting machine does not require extensive maintenance or storage in a controlled environment, the results of the election can be very easily changed by placing certain objects in the vote recorder to change the position of the computer card therein as it is being punched. Moreover, the requirement that the computer card be carried to a centralized location to be run through the tabulating computer greatly increases the likelihood of the election results being changed by tampering. While the initial cost of the vote recorder, itself, is relatively low, the cost of SUMMARY OF THE INVENTION These and other problems associated with prior art voting machines are overcome by the invention disclosed herein in that the construction of the modules used to make up the voting machine is such that the assembled voting machine cannot be tampered with to change the election results. Moreover, the use of a minimum number of different types of modules to make up the machine greatly reduces the overall costof the voting machine. The use of modules to make up the machine allows the machine size to be varied in accordance with the size of the election so that the machine size is kept to a minimum. The modules are electrically connected together so that not only is over-voting prevented, but the results indicated by the machine may be fed to a central location for recording the votes automatically from the precincts. Furthermore, by electrically connecting the modules, the various components may be selectively located remotely of the machine proper, resulting in the best possible machine layout and the most effective use of each component.

Therefore, it is one of the objects of the invention to provide a voting machine which is accurate and which prevents varying of the election results by tampering with the machine.

Another object of the invention is to provide a voting machine which may actuate local and remote computer devices for recording the votes.

Another object of the invention is to provide a voting machine which is inexpensive to manufacture, durable in structure, and efficient in operation.

Another object of the present invention is to provide a voting machine that has few moving parts and which requires substantially no maintenance.

Another object of the invention is to provide a voting machine made up of modular components of minimum cost so that any one of the modular components may be discharged when it functions improperly.

Another object of the invention is to provide a voting machine which can be serviced by inexperienced personnel. 7

Another object of the invention is to provide a voting machine which lends itself to an infinite variety of arrangements for different sizes and types of elections.

Another object of the invention is to provide a voting machine which is not limited to a predetermined number of issues which can be presented.

Another object of the invention is to provide a voting machine which may be readily and easily operated.

Another object of the invention is to provide a voting machine which requires minimum supervision when in use.

Another object of the invention is to provide a voting machine which provides for write-in votes and which will automatically store such write-in votes.

Another object of the invention is to provide avoting machine in which the vote counters cannot be reset until the machine is disassembled and in which the vote counters will be automatically zeroed upon assembly of the machine.

Another object of the invention is to provide a voting machine which provides verification to the voter of his selection of a candidate or issue and verification of the actual recording thereof.

Another object of the invention is to provide a voting machine which includes a supervisory indication to the poll worker that voting has taken place.

Another object of the invention is to provide a voting machine which, when the votes are to be counted, permits simultaneous observation of the counters by a number of people for verification of the total number of votes recorded for each candidate or issue.

Another object of the invention is to provide a voting machine which requires little space for storage and which is corrosion-free.

Another object of the invention is to provide a voting machine which may be electrically connected to a central location to provide signals thereto for recording the vote at this central location.

Another object of the invention is to provide a voting machine which is complete in itself and which can bemachine which verifies the number of voters using the machine.

Another object of the invention is to provide a voting machine which can be operated from batteries.

These and other objects, features and advantages of the invention disclosed herein will become more apparent from consideration of the following specification and accompanying drawings wherein like characters of reference designate corresponding parts throughout the several views and in which:

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a front elevational view of an assembled voting machine;

FIG. 2 is a side elevational view of the voting machine shown in FIG. 1;

FIG. 3 is a perspective view of 'one of modules of the invention;

FIG. 4 is a perspective view of a vote module of the invention;

FIG. 5 is a side elevational view of the vote module shown in FIG. 4 showing the plug connection therefor;

FIG. 6 is a perspective view of the write-in vote module of the invention;

FIG. 7 is a partial cross-sectional view of two modules showing howthe vote recording counters are reset; FIG. 8 is a bottom view of the write-in module with portions thereof removed to show the internal components thereof;

FIG. 9 is a cross-sectional view taken along line 99 in FIG. 8;

FIG. 10 is a cross-sectional view taken along line l0-l0 in FIG. 8;

FIG. 11 is an enlarged partial perspective view showing the construction of the cover door of the write-in the control module;

FIG. 12 is an electrical schematic diagram for'the input module of the invention;

FIG. 13 is an electrical schematic diagram for: the party control module of the invention;

FIG. 14 is an electrical schematic diagram for the party vote module of the invention; r FIG. 15 is-an electrical schematic diagram for the writein vote module of the invention;

FIG. 16 is an electrical schematic diagram for the individual control module of the invention;

FIG. 17 is an electrical schematic diagram for the individual vote module of the invention;

FIG. 18 is an electrical schematic diagram for the terminal module of the invention;

FIG. 19 is an electrical schematic diagram for the slave input module of the invention;

FIG. 20 is an electrical schematic diagram for the multiple control module of the invention;

FIG. 2lis an electrical schematic diagram for part of an assembled voting machine;

FIG. 22 is an electrical schematic diagram for the rest of the assembled voting machine of FIG. 21.

FIG. 23 is a partial elevational view of a second embodiment of the lockout means to prevent overvoting;

FIG. 24 is a cross-sectional view of the lockout means shown in FIG. 23; and

FIG. 25 is an electrical schematic diagram showing the multiple control module in use.

These figures an the following detailed description disclose specific embodiments of the invention; however, the inventive concept is not limited thereto since it may be embodied in other forms.

DESCRIPTION OF ILLUSTRATIVE EMBODIMENTS Referring in detail to the figures of the drawings, it will be seen that the apparatus of the invention illus trated is a built-up structure using an assembly of different types of modules, blocks or closures which fit together to formthe completed voting machine. It is to be understood, however, that, while one particular arrangement of modules is depicted in the drawings, the voting machine may have a variety of arrangements to suit the particular requirements of a particular plebiscite.

In the embodiment chosen for illustrating our invention, the major components include a plurality of modules M, a power supply PS, and the support frame assembly J. There are, however, basically nine different types of modules M associated with the machine, these being an input module 10, aparty control module 11, a party vote module 12, individual control module 14, an individual vote module 15, a write-in vote module 16, a terminal module 18, a slave input module 19 and a multiple control module 20. The modules M are illustrated assembled to form a general election section designated by the letters GES and an independent election section designated by the letters IES.

The input module 10 properly connects the other modules to the power supply PS to operate the same. In the disclosed embodiment of the machine, the module 10 also provides the total vote pulse producing function for the machine, the reset function of the machine, and the correct function of the machine. There is one module 10 associated with each voting machine.

The party control module 11 controls the lockout function for all of the vote modules 12, 15 and 18 in the general election section GES. lt renders the select portions of the modules 12, 15 and I8 inoperative when one of the vote modules 12 is energized It does not, however, have any effect on the vote modules 15 and 18 in the independent election section IES. There will be one party control module 11 associated with each general election section GES.

The party vote 12 controls the select function for one party in the general election section GES. There will be one module 12 for each party in the general election. The module 12 also controls the ground return path for the control modules 11 and 14 in the general election section GES to carry out the lockout function.

An individual control module 14 is associated with each individual race in both the general election section GES and the independent election section IES. The modules 14 control the lockout function for each political race. They render the select portion of those modules 15 and 18 in that particular race inoperative to prevent overvoting. When the module 14 is used in the general election section GES, it also controls the groung return path for the party control module 11 to carry out the lockout function.

An individual vote module 15 is associated with each candidate in each political race in both the general election section GES and the independent election section IES. Each module 15 controls the ground return path of its associated individual control module 14 for that political race to carry out the lockout function thereof.

A write-in vote module 18 is associated with each political race in which write-in votes are expected. Each module 18 performs a select function and controls the ground return path as does the modules 15. In addition, each module 18 provides an internally carried write-in ballot for the voter to write in his vote. It is also understood that a write-in vote module 18 may be provided for write-in party voting in the party grouping of the general election section GES.

A terminal module 16 is associated at the end of each general election section GES and at the end of each unit of the voting machine carried by the frame assembly J. The modules 16 provide ground return pathsfor the modules 1 1-16 between it and the input module as well as a transfer of the total vote pulse producing function, the reset function, and the correction function to the other modules 14-16 in that unit of the voting machine carried by each frame assembly J.

The slave input module 19 allows a voting machine to be made up of several units, each unit being carried by a separate frame assembly J. This makes provision for the voting machine to be expanded to encompass any size election while controlling the election with one input module 10. The slave input module 19 is placed in the same position in each of the additional units of the voting machine as is the input module 10 in the first unit of the machine. It is connected to the module 10 directly or indirectly through other modules 19 and transfers the total vote pulse producing function, the reset function, and the correct function from the module 10 to the modules 1 1-18 in that unit associated with the slave input module 19.

t The multiple control module 20 makes provision for voting for more than one candidate in a political race such as is usually the case for county commissioners. The multiple control module 20 is placed between the control module 14 and the vote modules 15 and 18 in the multiple vote race. The module serves to bypass the lockout function of its associated modules 14, 15 and 16 until the voter has selected the prescribed number of candidates in that particular race.

- In the embodiment of the invention illustrated, the vote counter for each party or candidate is carried in the particular vote module 12, 15 or 18 associated with that candidate. Until the voter makes his selection, none of the counters are connected to ground or to the hot wire. When the select switch of a module 12, 15 or 18 is depressed by the voter to select the candidate for which he wants to vote, the associated counter is connected to ground. When the input module 10 is actuated to perform the vote pulse producing function, it connects all of the counters to a hot wire. This actuates these counters connected to ground to record the votes. In this manner, no voltage can be imposed across the counters until the vote lever is pulled.

While the vote lever to indicate the total vote producing function is located in the input module 10, it is understood that it may be remotely located and still operate properly. While the correct lever to initiate the correct function of the machine is located in the input module 10, it likewise may be remotely located and. still operate properly. The vote counters are illustrated located in each vote module 12, 15-or 18; however, it is understood that these counters may be easily located remotely of the machine and still operate properly simply by their connection to the pulse producing circuitry of the ginvention. Likewise, it is understood that a central computer vote counting station may be connected to the vote pulse producing circuitry of the invention to cumulatively record the votes from several remote voting locations.

FRAME ASSEMBLY The frame assembly J supports the various modules 10-20 when they are assembled and presents them at a convenient height and angle for voting. The frame assembly J includes a pair of spaced apart parallel support rods 21 which are generally vertically oriented when the voting machine is in use. The upper ends of the support rods 21 are joined by an upper end cap 22 which is fixed with respect to the support rods 21. The lower ends of the support rods 21 extend through a lower end cap 24 through appropriate apertures 23 therein with the modules 10-20 being selectively carried in different numbers between the upper end cap 22 and the lower end cap 24. For selectively locking the modules 10-20 between the end caps 22 and 24, a plurality of apertures 25 are provided through each of the support rods 21 with the apertures 25 of one support rod 21 being aligned with the apertures 25 in the other support rod 21. A locking pin 26 is selectively extendable through a passage 28 through the lower end cap 24 and through appropriate apertures 25 through the support rods 21 to affix the selective number of modules 10-20 between the end caps 22 and 24. An appropriate passage 29 is provided through one end of the locking pin 26 and a head 30 is provided on the other end of the locking pin 26 so that a conventional padlock P may be inserted through passage 28 to lock the pin 26 in position and prevent the disassembly of the voting machine until the padlock P is removed.

The frame assembly J also includes a support stand which may be mounted on a conventional table T and includes a support plate 31 defining appropriate passages 32 therethrough which receive the support rods 21 therethrough and position the voting machine at the desired angle. The height of the table T determines the 1 vertical position of the voting machine when it is placed on the support plate 31. Therefore, it will be seen that the modules 10-20 are selected to properly construct the voting machine for the desired number of political races and are slidably positioned between the support rods 21. After the desired number of modules 10-19 are placed between the support rods 21, the bottom end cap 24 is slipped thereon and the locking pin 26 is placed therethrough. The padlock P is placed through the passage 28 to lock the voting machine together. it will be seen that the apertures 25 through the support pins 21 areso arranged that the modules 10-20 will always be tightly locked between the end caps 22 and 24 and cannot be disassembled until the padlock is removed from the locking pin 26. In this manner, the voting machine can be assembled at one location, then transported to the polling station, and placed in the support plate 31 for the voting to take place. After the voting is completed, the voting machine is removed from the support plate 31 and taken to a central tabulating station so that the total vote may be tabulated from the counters indicating the vote on the voting machine.

Each of the illustrated modules 10-20 are of standard thin wall construction and are provided with a positioning lug L at each end thereof as best seen in FIGS. 1-6 which position the modules between the support rods 21 in a stacked relationship. It is understood that the modules 10-20 may be a molded unit with the components positioned therein prior to molding. This type construction is ideally suited for the modules since the cost thereof is so low that the module can be discarded rather than repaired when it functions improperly. Also, the components may be first encapsulated and then placedin the module.

The fronts of modules 12 and 15 are provided with windows 23 which have spaces for candidate and party cards. Modules 11-15 and are provided with overhanging lips 27 which close the top of the window 23 of the next lower module when the machine is assembled to prevent the cards from being changed during the election or before disassembly.

INPUT MODULE The input module 10 controls the overall operation of the voting machine. It is connected to the power supply PS and to each of the other modules ll-18 and 20 throughmale and female plug connections A and B. The module 10 is best seen in FIGS. 1 and 2 and in the electrical schematic of FlGS. 12 and 21.

The illustrated input module 10 carries the vote lever 35- which causes the vote selected for each race to be recorded. A correct lever 36 is also provided which al- I 40 is connected to terminal Y, and common hot wire 41 is connected to terminal Z. A reset unit 42 which resets the voting machine for the next voter is connected to the module 10 through terminals Q, R, T and V. The I module 10 is provided with a plug connection A with a number of connections designated 10-1 to 10-9.

Each side of each of the modules 11-18 and 20 is provided with corresponding plug connections, the female portion B located on one side and the male portion A on the opposite side. In this manner the modules can be stacked between the guide rods 21 and connections made therebetween. Each connection of each module will be referenced by the module designation with a connection number suffix and a letter suffix to indicate male or female portion. For example, the first male portion of the module 11 connection will be designated ll-lA. These connections mate with each other and with connections 10-1 to 10-9 of the module 10. The connections 1A and 1B are associated with the common ground wirefor the circuit and the connections 7A and 7B are associated with the common hot wire for the circuit. Connections 8A and 83 a are associated with the vote pulse producing function of the circuit while connections 9A and 9B are associated with the reset and correct function of the circuit. Connections 2A and 28, 3A and 3B,4A and 48, 5A and 5B, and 6A and 6B serve as ground controls for the select portions of the circuit and are therefore associated with the lockout function of the circuit to prevent overvotmg. I

Common hot wire 41 is connected to hot wire 44 which is in turn connected to the connection 10-7. Common ground wire is connected directly to connection 10-1. Wire 45 connects ground wire 40 with the voting circuit 46 and correct circuit 48. Vote circuit 46 is connected between wire 45 and wire 44 and comprises the normally closed contacts Rl-l, the coil RC2 of relay R2 and the vote pushbutton switch PB-l in series. Therefore it will be seen that closing switch PB-l energizes coil RC2. Correct circuit 48 is connected between secondary ground wire 49 and wire 45, the wire 49 being connected to connection 10-9. Cor rect circuit 48 includes correct pushbutton switch PB-2 and normally closed contacts R2-2 of relay R2 in series with each other and in parallel with normally open contacts R1-2. Therefore, it will be seen that closing switch PB-l or contacts R1-2 will connect wire 49 to common ground wire 40. If relay R2 is energized, switch PB-2 becomesineffective. Connecting secondary ground wire 49 to common ground wire 40 resets all of the modules 10-16 and 18.

Secondary hot wire 50 is connected to connection 10-8 and to hot wire 44 through normally open contacts R2-1 of relay R2. Therefore, it will be seen that wire 50 will have a voltage applied thereto when relay R2 is energized by closing switch PB-l or the vote switch. THis serves to activate the vote counters associated with each of the activated vote modules 12, 15 and 16, as will be explained hereinafter, to record votes for the selected candidates. Coil RC2 of relay R2 is maintained energized after switch PB-l is opened by wire 51 which connects one side of coil RC2 with secondary hot wire 50. Coil RC2 is de-energized when contacts R1-1 are opened by energizing relay R1.

Coil RC1 of relay R1 is connected between hot wire 41 and ground wire 45 through connection 0, reset pushbutton switch PB-3 of reset unit 42, and connection R. Therefore, it will be seen that closing switch PB-3 will close contacts R1-2 to connect wire 49 to ground and open contacts Rl-l to de-energize relay R2 and reset the machine.

Reset unit also includes an indicator light L1 connected between ground wire 45 and secondary hot wire 50 through connection R and connection V. Thus, when voltage is applied to wire 50, light L1 will be illuminated to indicate to the poll worker that voting has taken place. When switch PB-3 is closed by the poll worker, voltage is removed from wire 50 because contacts R2-l are opened and light L1 goes out.

To indicate the total number of people who have voted on the voting machine and for verifying the vote cards kept by the poll worker, a counter 0-1 is provided in the input module 10. The counter C-l is electrically operated and is connected between ground wire 40 and secondary hot wire 50. Therefore, when switch PB-l is closed, counter C-l will be activated to record that one person has voted. The counter C-] will be covered until the voting machine is transported to the central tabulating station as will be explained hereinafter.

Connection 10-2 is connected to ground wire 40 for connection with the individual control module 14 as described hereinafter. Connections 1 through V are provided for connection. to the slave input module 19. Connection 1 is connected to secondary hot wire 50, connection 11 is connected with secondary ground wire 49, connection 111 is connected to hot wire 44 and connection 1V is connected to common ground wire 40 through wire 45. In this manner, more than one stack of modules 11-18 may be controlled by the control module 10 as will be explained hereinafter.

PARTY CONTROL MODULE The party control module 11 controls the party vote modules 12 connected thereto and is best seen in FIGS. 3, 4 and 13. The module 11 includes a ready light L2 which indicates when the party vote section is ready to operate, a reset relay R3 and an operational relay R4 which controls overvoting in theparty and individual candidate voting sections.

Ground connection ll-lA is connected directly to connection 11-18 through wire 54 and wire 54 is connected to connection 1 l-2B. Wire 54 is also connected to control connection 11-58 through normally closed contacts R3-2 of relay R3 and to connection 11-68 through normally open contacts R3-1 of relay R3 and wire 52. Wire 52 is also connected to control connection 11-48 through normally open contacts R4-l of relay R4.

Hot connection 1l-7A is connected directly to connection 1 1-78 through wire 55 and secondary hot connection 11-8A is connected directly to connection 11-88. Secondary ground connection 11-9A is connected directly to connection 11-98 through wire 56. Coil RC3 of relay R3 is connected between wire 56 and 55 and coil RC4 of relay R4 is connected between wires 55 and 52. Light L2 is connected across coil RC4 in parallel therewith.

When coil RC3 is momentarily energized, contacts R3-1 are closed and contacts R3-2 are opened. This connects coil RC4 to ground and disconnects the counters of the modules 12 from ground so that coil RC4 will be energized and held in that condition for the modules 12 to operate as will be explained. It will also be seen that relay R3 is energized both to reset the ma- PARTY VOTE MODULE The party vote module 12 is best seen in FIGS. and 14. It includes a select pushbutton switch PB-4 for selecting a particular party in the election, there being one module 12 for each party in the race. When the switch PB-4 is momentarily closed, a counter C-Z associated with the module 12 will be connected for activation when votelever 35 is pulled and a select light L3 will be illuminated.

Referring specifically to FIG. 14, ground connection l2-1A is connected directly to connection 12-18, control connection l2-2A is connected to connection 12-28 through normally closed contacts R6-2 and control connection 12-4A is connected directly to connection 12-48. Control connection 12-5A is connected to connection 12-58 through wire 58 and control connection 12-6A is connected to connection [2-68 through wire 60. Hot connection 12-7A is connected to connection 12-78 through wire 59. Secondary hot connection 12-8A is connected to connection 12-88. through wire 61, and secondary ground connection l2-QA is connected directly to connection 12-98.

Coil RC5 of relay R5 is connected between wires 59 and 60 in series with select pushbutton switch PB-4. Relay R5 serves to initiate the connection of the counter to ground.

Counter C-2 is connected to wire 61 and to normally open contacts R6-1 of 'relay R6 through wire 62 and contacts R6-1 are in turn connected to wire 58 through wire 64. Wire 65 connectes one side of coil RC6 of relay R6 to wire 59 and wire 66 connects the other side of coil RC6 to normally'open contacts R5-1 of relay R5. Contacts R5-1 are in turn connected to wire 64. Wire 68 connects wires 66 and 62 and select light L3 is connected between wires 65 and 62. Relay R6 serves to hold counter C-2 connected to ground until deenergized when the machine is reset.

The party vote module 12 always follows a party control module 11 or another vote module 12 which is in turn connected to the party control module 11. In this manner wire 59 will always be connected directly to common hot wire4l, wire 61 will always be connected directly to secondary hot wire 50. Wire 58 will be connected to common ground wire 40 through normally closed contacts R3-2. Wire 60 will be connected to ground wire 40 through contacts R4-1, the modules 12-16 and 20 between the module 12 and the terminal module 18, and back through each of the contacts R6-2 in the party vote modules 12.

When contacts R4-1 are closed and there is a ground path available through the modules 12-16 and 20 as will be explained later, relay R5 will be energized to close contacts R5-l. This energizes relay R6 by connecting coil RC6 to ground wire 40 through contacts R3-2. Energizing relay R6 opens contacts R6-2 and closes contacts R6-1 associated with the energized relay R6. Closing contacts R6-1 maintains coil RC6 and counter C-2 connected to ground wire 40 through contacts R3-2. Opening contacts R6-2 interrupts the ground path for wire 60 and relays R5 so that relay R5 is not only de-energized, but cannot be re-energized when switch PB-S is closed. This condition is maintained until relay R3 is energized to open contacts R3-2 and interrupt the ground path of relay R6 and counter C-2.

INDIVIDUAL CONTROL MODULE The individual control module 14 is similar in design to the control module 11 as seen in FIG. 1, 2 and 16 and controls the individual candidate or issue section of the voting machine. It is provided with a ready light L4 to indicate when the individual voting section is operational and includes a reset relay R8 for resetting or correcting the individual vote section. An operational relay R7 is also provided for maintaining the individual vote section operational.

Referring more specifically to FIG. 16, ground connection 14-1A is connected to connection 14-18 by wire 69 while control connection 14-2A is connected to connection 14-28 by wire 70. Control connection l4-3A is connected to wire 70 and control connection 14-4A is connected to connection 14-48 through normally open contacts R7-1 of relay R7. Wire 71 connects normally open contacts R8-l with wire 69 and wire 72 connects contacts R7-1 with connection 14-68. Wire 71 is connected to connection 14-58 through normally closed contacts R8-2 and wire 72 is connected to connection 14-38 through normally open contacts R7-2 of relay R7.

Wire 74 connects hot connection 14-7A with connection 14-78, secondary hot connection 14-8A is connected directly to connection 14-88, and wire 75 connects secondary ground connection 14-9A with connection 14-98. Coil RC8 of relay R8 is connected connected between wires 72 and 74. Ready light L4 is connected across coil RC7 in parallel therewith.

Relay R8 performs the same function as relay R3 when wire 75 is momentarily connected to ground by closing contacts R8-l and opening contacts R8-2. This connects coil RC7 to ground and disconnects the counters of the vote modules 15 associated therewith from ground. This energizes relay R7 and holds it in that condition for the module 15 associated therewith to operate as will be further explained in the operation section.

INDIVIDUAL VOTE MODULE The individual vote module 15, as best seen in FIGS. 1, 2 and 17, is similar in construction to the vote module 12 and is provided with a select pushbutton switch PB-S for selecting a particular candidate or issue. A plurality of modules 15 are connected to the control module 14 and operate in a manner similar to the party vote section. There is one module 15 for each candidate and issue in the election.

As seen in FIG. 17, ground connection 15-1A is connected directly to connection l-1B, control connection 15-2A is connected directly to connection 15-2B, control connection l5-4A is connected directly to connection 15-4B, and secondary ground connection l5-9A is connected directly to connection l5-9B. Control connection l5-3A is connected to connection 15-3B through normally closed contacts R-2 of relay R10, and wire 76 connects control connection -5A with connection l5-5B. Control connection 15-6A is connected to connection 15-6B by wire 78, wire 79 connects hot connection 15-7A with connection 15-7B and secondary hot connection 15-8A is connected to connection 15-8B by wire 80.

Coil RC9 is connected between wires 78 and 79 in series with select pushbutton switch PB-S. One side of vote counter C-3 is connected to wire 80 and the other side of counter C-3 is connected to normally open contacts R10-1 of relay R10 by wire 81. Normally open contacts R10-l are in turn connected to wire 76 by wire 82. One side of coil RC10 of relay R10 is connected to wire79 by wire 84 and the other side thereof is connected to normally open contacts R9-l of relay R9 by wire 85. The contacts R9-1 are also connected to wire 82. Wire 85 is connected to wire 81 by wire 86 and lamp L5 is connected between wires 84 and 81. Relay R9 serves to initiate the connection of the counter C-3 to ground and relay R6 serves to hold counter C-3 connected to ground until de-energized when the machine is reset. When a voltage is imposed on wire 80, those counter C-3 will record'one vote for the selected candidate or issue.

WRITE-IN VOTE MODULE The write-in vote module 16 is best seen in FIGS. 6, 8-11, and 15. It presents a section of blank paper tape 90 to the voter if he decides to write in his vote. The tape 90 is hidden by a cover door 91 until the vote lever 35 is pulled. The tape 90 is carried within a cartridge 150 by a driven spool 92 and an idler'spool 94 with the driven spool 92. A tape and door release mechanism 98 releases the tape 90 and opens the door 91 so that a predetermined amount of blank tape 90 is presented to the voter. The door 91 is closed by a closure mechanism 99 when the voting machine is reset. Therefore,

is passed through the side wall 103 and lug 104 of the housing 100 and through appropriate apertures through the cartridge 150 to lock the same in the housing 100. A padlock P is passed through the end of the pin 151 and a lug 96 affixed to the housing 100 to keep the cartridge 150 in place until the votes are ready to be counted.

The spools 92 and 94 are rotatably mounted in the cartridge 150 and the idler spool 94 is equipped with a resistance device of conventional design to maintain a tension on the tape as it is transferred from the spool 94 to the spool 92. A support table 152 is provided in the forward end of the cartridge 150. The tape 90 passes over the table 152 as it passes from the spool 94 to the spool 92. When the cartridge 150 is in position in the housing 100, the support table 152 presents the tape 90 directly behind the opening 101 for the voter to write thereon. Idler rolls 154 direct the tape 90 over the table 152 and between spools 92 and 94.

A hysteresis electric motor carried by the housing is drivingly connected to the spool 92, when the cartridge is in position, by a gearing arrangement 105. The motor 95 is constantly energized but the movement of the tape 90 is intermittently stopped by a check pin 155.

The check pin 155 is slidably carried by one of the side walls of the cartridge 150 adjacent the tape 90 as it passes from the spool 94 to the spool 92. The pin 155 has a projection 156 which engages one of a series of pre-punched holes 158 (FIG. 10) through the tape 90 when the pin 155 is pressed toward the tape 90. The holes 158 are punched a predetermined distance apart so that a blank piece of the tape 90 will be presented over the table 152 each time the pin 155 releases the tape 90 and re-engages the next hole 158. A leaf spring 159 constantly urges the pin 155 away from the tape 90 and a release mechanism 98 intermittently urges the pin 155 toward the tape 90 to arrest the movement thereof.

The tape 90 may be of any of a number of materials. The tape 90 shown is a paper tape commercially available on the market today and has sufficient strength to prevent it from tearing when the projection 156 engages the holes 158.

The release mechanism 98 is carried by the housing 100 adjacent the pin 155 when the cartridge 150 is in position. A bellcrank 111 connected to a solenoid SOL-1 urges the pin 155 toward the tape in its normal unenergized position. When the solenoid SOL-1 is energized, the plunger 112 thereof is retracted to release pin 155 and allow spring 159 to move projection 156 out of hole 158. This permits the tape 90 to advance. Solenoid SOL-1 is only momentarily energized so that pin 155 will again beurged toward tape 90 and projection 156 will engage the next hole 158 to arrest movement of tape 90. A blank piece of tape 90 is now positioned under opening 101. A cam 110 on th'e bell crank 111 allows the cartridge 150 to be inserted in the housing 100 without interference with pin 156.

At the same time the tape 90 is released, the mechanism 98 also releases the cover door 91 so that it may be opened for the write-in vote. The door 91 is pivoted to the housing 100 at 114 and is provided with a catch lug 115 which extends into the housing 100 through slot 116 when the door 91 is closed. A bolt assembly 118 carried within the housing 100 engages the catch lug 115 and holds the door closed.

The bolt assembly 118 includes a bolt 119 slidably carried within the housing and arranged for extension into a passage 120 through the lug 115 when the door is closed. The bolt 119 is urged by spring 117 toward the lug. 1 and both the bolt and lug are complementarily beveled to cause the bolt 119 to retract as the door 91 is closed and then extend into the passage 120 when the door is fully closed. This locks the door in a closed position.

An extension 121 affixed to the bolt 119 is engaged by the bell crank 111 as the plunger 112 is retracted to retract the bolt 119. This allows the door 91 to open and expose the tape 90 under the opening 101. As soon as solenoid SOL-l is de-energized, the bolt 119 is returned to its extended position by spring 117.

The assembly 99 opens and closes the door 91 once it is unlatched. The assembly 99 includes a solenoid SOL-2 which has its plunger 122 pinned to arm 124 attached to door 91. The solenoid SOL-2 is pivotally mounted in housing 100 so that extension of plunger 122 opens door 91 and retraction thereof closes door 91.

in its normal de-energized position, the plunger 122 is urged toward extension. Therefore, when the door 91 is unlatched, it is automatically opened. When solenoid SOL-2 is energized, plunger 122 is retracted and the door 91 closed. Since the bolt 1 19 is extended when the door 91 is closed, the door will be latched in its closed position.

As will be further explained in the operation section, the solenoid SOL-1 will be energized when vote lever 35 is pulled to open door 91. Solenoid SOL-2 will be energized whenreset switch PB-3 is closed to close door 91.

Referring more particularly to FIG. 15, ground connection 18-1A is connected to connection 18-1B byv wire 125, control connection 18-5A is connected to connection 18-5B by wire 126, and wire 128 connects control connection 18-6A with connection 18-6B. Wire 129 connects hot connection 18-7A with connection 18-7B, secondary hot connection 18-8A is connected to connection 18-8B by wire 130, and wire 131 connects secondary ground connection 18-9A with connection 18-9B. Control connection l8-2A is connected directly to connection 18-2B, control connection 18-4A is connected directly to connection 1848, and control connection 18-3A is connected to connection 18-3B through normally closed contacts R12-2 of relay R12.

The motor 95 is connected between wires 129 and 125. Coil RC11 of relay R11 is connected between wires 128 and 129 in series with select pushbutton switch PB-6 for selecting a write-in vote to be made. One side of counter C-4 is connected to wire 130 while wire 135 connects the other side of counter C-4 to normally open contacts R12-1 of relay R12. Wire 136 connects contacts R12-1 to wire 126. Wire 132 connects one side of coil RC12 of relay R12 to wire 129 while the other side of coil RC12 is connected to normally open contacts R11-1 of relay R11 by wire 134 Contacts R11-1 are in turn connected to wire 136. Wire 138 connects wires 134 and 135 and select light L6 is connected between wires 132 and 135.

Therefore, it will be seen that the above described portion of the circuit associated with relays R11 and R12 and counter C-4 operates in a manner similar to the corresponding portions of the vote modules 12 and 15. Moreover, the motor is constantly energized as will be further explained hereinafter.

Solenoid SOL-l is connected between wires and and solenoid SOL-2 is connected between wires 130 and 131. When counter 04 is energized, solenoid SOL-1 will also be energized to open the door 91. When the machine is reset, solenoid DOL-2 is energized to close the door 91 as set forth in the operation section.

TERMlNAL MODULE The terminal module 18 is best seen in FIGS. 1, 2 and 18 and is placed at the end of each unit carried by the frame assembly J as well as between a general election section GES and an independent election section IES. The terminal module 18 serves two functions: first, it provides a ground return path for the lookout and selection portions of the modules associated therewith and secondly, transfers the vote pulse producing function, the correction function, and the reset function'to those modules following it.

As best seen in P10. 18, ground connection 18-1A is connected to connection 18-1B, hot connection 18-7A to connection 18-7B, secondary hot connection l8-8A to-connection 18-8B, and secondary ground connection 18-9A to connection 18-9B. Control connection 18-2B is also connected to ground connections 18-1A and 18-1B. Control connections 18-2A, 18-3A and 18-4A are all connected to each other.

SLAVE INPUT MODULE The slave input module 19 as best seen in FIG. 19 has the same type housing as the terminal module 18. It is used when several module stacks carried by different frame assemblies are necessary for each voting machine and serves to transfer the-functions of the input module 10 so that one vote lever 35 and correct lever 36 control the entire machine. The module 19 is placed in the same position in the stack as the module 10.

Module 19 is provided with connections lA-VA which correspond to connections I-V of the input module 10. These corresponding connections are connected to each other via a coaxial cable (not shown) so that the functions of the module 10 will be transferred to that stack of modules associated with the slave module 19.

Module 19 is also provided with connections lB-VB which are connected to corresponding connections lA-VA so that other modules 19 may be connected thereto. This allows further expansion of the voting machine.

The module 19 is also provided with connections 19-1 through 19-9 which correspond to connections 10-] through 10-9 of module 10. Connection WA is connected to connections 19-1 and 19-2, connection 111A to connection 19-7, connection "A to connection 19-9 and 1A to connection 19-8. This causes the mod- 

1. A voting machine for connection to a source of electricity comprising: a plurality of juxtaposed electrically removably connected individual vote modules, each of said vote modules including: a. an electrically actuated counting means for recording the number of electrical pulses received by the means, and b. first switch means for activating said counter means to receive a pulse; c. an input switch means connected to said vote modules and electrically connected to one side of said source of electricity; d. a first circuit for connecting a side of the counting means of all of said vote modules to the other side of said source of electricity; e. a second circuit for connecting the other side of the counter means of all of said vote modules to said input switch means; and f. means connected with each of said vote modules for deactuating said counting means of all vote modules except said counting means associated with the selected vote module wherein said first switch means of the selected vote module is activated.
 2. A voting machine for connection to a source of electricity including; support means; a plurality of modules carried by said support means in a stacked side-by-side relationship; and, means for electrically connecting each of said modules carried by said support means with said source of electricity; said plurality of modules including a first module connected to said source of electricity and including: vote switch means connected to said source of electricity, reset switch means connected to said source of electricity, and first relay means connected to said vote switch means and said reset switch means, said first relay means being energized upon closure of said vote switch means and de-energized upon closure of said reset switch means; said plurality of modules further including a plurality of second modules connected to said source of electricity through each other and said first module, each of said second modules including: select switch means connected to said source of electricity, lockout means connected to said source of electricity, said lockout means disconnecting said select switch means of all of said second modules for said source of electricity upon closure of one of said select switch means, second relay means connected to said source of electricity, said second relay means being energized upon closure of said select switch means and de-energized upon closure of said reset switch means, and counter means connected to said source of electricity from one side thereof through said second relay means and from the other side thereof through said vote switch means, said counter means being energized to record one vote each time said vote switch means is closed while second relay means is energized.
 3. A voting machine constructed of a number of selectively removable modules including: a. power supply means; b. at least one control module, said control module being operatively associated with said power supply means and including an operable control element effective for transmitting a power pulse from said power supply means in response to operation of said control element; c. at least two vote counting modules, each of said vote counting modules including power operable counting means detailed for serially accumulating individual votes cast for a candidate in an election, said counting means including selectively operable control means movable between an operative count input condition and an inoperative condition and wherein a count of one is registered in said counting means when said counting control means is in said operative input condition and in response to a power pulse delivered from said power supply means by actuation of said control element on said control module; and d. first and second groups of releasable connecting elements provided on each of said counting modules and said control module for releasably interconnecting said modules in an operative relationship, said releasable connecting elements detailed for transmitting power to said module counting control means and for transmitting power from one group of said connecting elements to said other group of connecting elements, whereby power from said power supply means can be transmitted through said control module to each of said counting modules.
 4. A vote counting machine as described in claim 3 further characterized in that said control module and said vote counting modules include indicator means detailed for indicating when said control means are in their operative condition.
 5. A voting machine as described in claim 3 further characterized in that said voting machine includes frame support means detailed for supporting said releasably connected modules in an associated operative condition and wherein said frame support means includes locking means for retaining said modules in said operative relationship.
 6. A voting machine as described in claim 3 further characterized in that each of said vote counting modules includes vote count indicator means operatively associated with said counting means for reflecting the number of votes cast for an individual candidate.
 7. A voting machine as described in claim 6 further characterized in that said voting machine includes vote count indicator shield means, said shield means including locking support means detailed for locking said shield means in an shielding position relative to said vote Count indicator means.
 8. A voting machine as described in claim 3 further characterized in that said voting machine includes a number of groups of said vote counting modules and wherein each of said groups of vote counting modules includes at least two vote counting modules.
 9. A voting machine as described in claim 8 further characterized in that each of said groups of vote counting modules includes a write-in module.
 10. A voting machine as described in claim 9 further characterized in that said voting machine includes a control module operatively connected between each of said groups of vote counting modules.
 11. A voting machine as described in claim 3 further characterized in that said power supply means includes an electrical power supply and wherein said electrical power supply is operatively connected to said control module and wherein said control module and each of said counting modules are releasably and electrically connected whereby an electrical pulse can be transmitted from said electrical power supply means to said control module and to each of said counting modules.
 12. A voting machine as described in claim 3 further characterized in that said voting machine includes a number of groups of said modules and wherein each of said groups includes a control module and at least two counting modules and wherein said groups of modules are releasably and operatively connected together in an aligned array and further including frame support means for supporting said groups of vertically stacked modules in a substantially rigid supporting relationship and wherein said frame support means includes locking means for retaining said modules in said vertically stacked array.
 13. A voting machine as described in claim 3 further characterized in that said control module includes means for deactivating said counting means of each of said counting modules after a power pulse has been supplied to the selected counting means, and reset means on said control module for resetting said voting machine to a condition such that a selected counting means can again count an additional pulse in response to said selected counting control means being placed in said operative input condition.
 14. A voting machine constructed of a number of selectively removable modules including: a. power supply means; b. at least one master control module, said master control module being operatively associated with said power supply means and including an operable control element effective for transmitting a power pulse from said power supply means in response to operative of said control element; c. at least two groups of vote counting modules, each of said groups of said vote counting modules including at least one secondary control module and at least two vote counting modules, said secondary control module being operative for transmitting a power pulse from said master control module or from one of said counting modules therethrough to actuate said second group of counting modules, each of said vote counting modules including a power operable counting means detailed for serially accumulating individual votes cast for a candidate in an election, said counting means including selectively operable control means movable between an operative counting input condition and an inoperative condition and wherein a count of one is registered in said counting means when said counting control means is in said operative input condition and in response to a power pulse delivered from said power supply means by actuation of said control element on said master control module; and d. releasable connecting means provided on each of said counting modules and said control modules for releasably interconnecting said modules in an operative relationship whereby power from said power supply means can be transmitted through said control modules to each of said counting modules.
 15. A voting machine as described in claim 14 further characterized in that said master control moduLe includes means for deactivating all of said counting means after a pulse has been supplied to each of said selected counting means, and reset means on said master control module for resetting the voting machine to a condition such that a selected activated counting means can again count an additional pulse. 